Interaction of arsenic with biochar in water and soil: Principles, applications, and prospects

Pabasari A. Koliyabandara; Udayagee Kumarasinghe; Danushika C. Manatunga; Randika Jayasinghe; Rohan S. Dassanayake; Meththika Vithanage

doi:10.1007/978-3-031-16360-9_7

Interaction of arsenic with biochar in water and soil: Principles, applications, and prospects

Pabasari A. Koliyabandara, Udayagee Kumarasinghe, Danushika C. Manatunga, Randika Jayasinghe, Rohan S. Dassanayake, Meththika Vithanage

Publikation: Bidrag til bog/rapport/konferenceproceedings › Bogkapitel › Forskning › peer review

Resumé

Arsenic (As) is known as an extremely toxic metalloid available in the environment due to both anthropogenic and geogenic activities. Even though adsorption has shown promising results in remediating As, the speciation of As poses a challenge. Bioavailability and mobility of As can be potentially improved with the addition of biochar to contaminated soil systems. Further, biochar modification can also aid in better As removal. Biochar, prepared via pyrolysis of organic materials is characterized with unique properties namely large surface area, elevated sorption capacity, ion exchange capacity, micro porosity, significant mineral, and carbon contents which are highly beneficial in water and soil remediation. The conditions of pyrolysis and the type of feedstock are two key factors that directly affect the characteristics of biochar. The abundant availability of feedstock, cost effectiveness and favorable physiochemical parameters of biochar aid in remediating metalloids like As in the environment. This chapter focuses on the principles, interactions, application of biochar in As remediation in soil and water and future perspectives.

Originalsprog	Engelsk
Titel	Environmental Science and Engineering
Forlag	Springer
Sider	129-158
Antal sider	30
DOI	https://doi.org/10.1007/978-3-031-16360-9_7
Status	Udgivet - 2023
Udgivet eksternt	Ja

Publikationsserier

Navn	Environmental Science and Engineering
ISSN	1863-5520

Programområde

Programområde 2: Vandressourcer

Adgang til dokumentet

10.1007/978-3-031-16360-9_7

Citationsformater

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abstract = "Arsenic (As) is known as an extremely toxic metalloid available in the environment due to both anthropogenic and geogenic activities. Even though adsorption has shown promising results in remediating As, the speciation of As poses a challenge. Bioavailability and mobility of As can be potentially improved with the addition of biochar to contaminated soil systems. Further, biochar modification can also aid in better As removal. Biochar, prepared via pyrolysis of organic materials is characterized with unique properties namely large surface area, elevated sorption capacity, ion exchange capacity, micro porosity, significant mineral, and carbon contents which are highly beneficial in water and soil remediation. The conditions of pyrolysis and the type of feedstock are two key factors that directly affect the characteristics of biochar. The abundant availability of feedstock, cost effectiveness and favorable physiochemical parameters of biochar aid in remediating metalloids like As in the environment. This chapter focuses on the principles, interactions, application of biochar in As remediation in soil and water and future perspectives.",

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author = "Koliyabandara, {Pabasari A.} and Udayagee Kumarasinghe and Manatunga, {Danushika C.} and Randika Jayasinghe and Dassanayake, {Rohan S.} and Meththika Vithanage",

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year = "2023",

doi = "10.1007/978-3-031-16360-9_7",

language = "English",

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Interaction of arsenic with biochar in water and soil: Principles, applications, and prospects. / Koliyabandara, Pabasari A.; Kumarasinghe, Udayagee; Manatunga, Danushika C. et al.
Environmental Science and Engineering. Springer, 2023. s. 129-158 (Environmental Science and Engineering).

Publikation: Bidrag til bog/rapport/konferenceproceedings › Bogkapitel › Forskning › peer review

TY - CHAP

T1 - Interaction of arsenic with biochar in water and soil

T2 - Principles, applications, and prospects

AU - Koliyabandara, Pabasari A.

AU - Kumarasinghe, Udayagee

AU - Manatunga, Danushika C.

AU - Jayasinghe, Randika

AU - Dassanayake, Rohan S.

AU - Vithanage, Meththika

PY - 2023

Y1 - 2023

N2 - Arsenic (As) is known as an extremely toxic metalloid available in the environment due to both anthropogenic and geogenic activities. Even though adsorption has shown promising results in remediating As, the speciation of As poses a challenge. Bioavailability and mobility of As can be potentially improved with the addition of biochar to contaminated soil systems. Further, biochar modification can also aid in better As removal. Biochar, prepared via pyrolysis of organic materials is characterized with unique properties namely large surface area, elevated sorption capacity, ion exchange capacity, micro porosity, significant mineral, and carbon contents which are highly beneficial in water and soil remediation. The conditions of pyrolysis and the type of feedstock are two key factors that directly affect the characteristics of biochar. The abundant availability of feedstock, cost effectiveness and favorable physiochemical parameters of biochar aid in remediating metalloids like As in the environment. This chapter focuses on the principles, interactions, application of biochar in As remediation in soil and water and future perspectives.

AB - Arsenic (As) is known as an extremely toxic metalloid available in the environment due to both anthropogenic and geogenic activities. Even though adsorption has shown promising results in remediating As, the speciation of As poses a challenge. Bioavailability and mobility of As can be potentially improved with the addition of biochar to contaminated soil systems. Further, biochar modification can also aid in better As removal. Biochar, prepared via pyrolysis of organic materials is characterized with unique properties namely large surface area, elevated sorption capacity, ion exchange capacity, micro porosity, significant mineral, and carbon contents which are highly beneficial in water and soil remediation. The conditions of pyrolysis and the type of feedstock are two key factors that directly affect the characteristics of biochar. The abundant availability of feedstock, cost effectiveness and favorable physiochemical parameters of biochar aid in remediating metalloids like As in the environment. This chapter focuses on the principles, interactions, application of biochar in As remediation in soil and water and future perspectives.

KW - Arsenic

KW - Biochar

KW - Feedstock

KW - Pyrolysis

KW - Sorption

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DO - 10.1007/978-3-031-16360-9_7

M3 - Chapter in book

AN - SCOPUS:85143769928

T3 - Environmental Science and Engineering

SP - 129

EP - 158

BT - Environmental Science and Engineering

PB - Springer

ER -

Interaction of arsenic with biochar in water and soil: Principles, applications, and prospects

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